A wave is described by Y(x,t) = 13cm sin(22k -64t + π/6) what is the wave speed?
2.9 m/s
0.34 m/s
1.4 m/s
0.28 m/s
A wave whose displaces a medium along the same direction as the wave travels is a ....... wave
A water wave moves between two buoys separated by 30 min 40 sec. The water wave make 5.2 wavelengths between the buoys what is the frequency of the wave?
1.6 hz
0.13 hz
0.04 hz
14.5 hz
Answer :
(i)

(ii) A wave whose displaces a medium along the same direction as the wave travels is a Longitude wave, As Longitudinal waves have the same direction of vibration as their direction of travel. This means that the movement of the medium is in the same direction as the motion of the wave.
A wave is described by Y(x,t) = 13cm sin(22k -64t + π/6) what is the wave...
A string has a tension of 800N. the mass of the string is 200 g and the length is 80 cm. What is the wave speed? 3200 m/s 57 m/s 5.6 m/s 12.8 m/s QUESTION 2 What is the speed of a wave bound between two fixed points. the wave is oscillating at 500 hz and the standing wave pattern is the fundamental.. Tthe length of the string is 72 cm. 840 m/s 1440 m/s 7.2 m/s 720 m/s...
3.) The wave function for a harmonic wave on a string is y(x,t) (0.001 m)sin[(62.8 m1)x (314 s1)t] (a.) What is the speed of the wave, and which direction does it travel? (b.) What is the wavelength? (c.) What is the frequency? (d.) What is the period? (e.) Suppose a piece of the string is clamped (held fixed) at two points 1.4 m apart. What are the longest three wavelengths of standing waves that can exist between the two points?...
What is the speed of a wave described by y ( x , t ) = A cos ( k x − ω t ) if A = 0.13 m, k = 5.13 m − 1 , and ω = 130 s − 1 ? y(x,t)-A cos(kr - wt) We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this...
6. A wave is described by y = 0.020 8 sin(kx - wt), where k = 2.22 rad/m, w = 3.66 rad/s, x and y are in meters, and t is in seconds. (a) Determine the amplitude of the wave. (b) Determine the wavelength of the wave. (c) Determine the frequency of the wave. (d) Determine the speed of the wave. 7. When a particular wire is vibrating with a frequency of 3.00 Hz, a transverse wave of wavelength 64.0 cm is produced. Determine the...